Characterisation of porous materials by combining mercury porosimetry and scattering techniques (Conference presentation)

Stefanopoulos, K.L.Steriotis, Th.A.Mitropoulos, A.Ch.Kanellopoulos, N.K.Treimer, W.

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dc.contributor.authorStefanopoulos, K.L.en
dc.contributor.authorSteriotis, Th.A.en
dc.contributor.authorMitropoulos, A.Ch.en
dc.contributor.authorKanellopoulos, N.K.en
dc.contributor.authorTreimer, W.en
dc.rightsDefault License-
dc.subjectMercury porosimetryen
dc.subjectPorous materialsen
dc.titleCharacterisation of porous materials by combining mercury porosimetry and scattering techniquesen
heal.generalDescriptionVolume 350 , Issue 1-3 SUPPL. 1, Art. No. 1, pp. e525 e527en
heal.generalDescriptionInstitute of Physical Chemistry, NCSR DEMOKRITOS, Athens, Greeceen
heal.generalDescriptionCavala Institute of Technology, Dpt. of Petroleum Technology, 65404 St. Lucas, Cavala, Greeceen
heal.generalDescriptionHahn-Meitner Institut, BENSC, Berlin, Germanyen
heal.classificationPorous materialsen
heal.recordProviderΔεν υπάρχει πληροφορίαel
heal.bibliographicCitationΔεν υπάρχει πληροφορίαel
heal.abstractSmall-angle neutron scattering (SANS), ultra small-angle neutron scattering (USANS) and mercury porosimetry have been used to fully characterise macroporous chalk as well as Si3N4 and BaTiO3 samples. For the scattering techniques, multiple scattering effects have been studied. In addition, the scattering data have been evaluated by using a generalised form of the indirect Fourier transformation technique suitable for concentrated systems. Pore size distributions are calculated and compared to the mercury porosimetry results. © 2004 Elsevier B.V. All rights reserved.en
heal.conferenceNamePhysica B: Condensed Matteren
heal.type.enConference presentationen
heal.type.elΔημοσίευση σε συνέδριοel
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